SU406310A1 - In P T B - Google Patents

Description

one

The invention relates to automation and can be used in protection circuits.

A time relay is known, which contains an ion capacitor, a two-winding electromagnetic relay, one winding of which is included on the day of the charge, and a friend in the discharge capacitor discharge circuit, a bridge circuit consisting of an RC integrating center and a resistive voltage divider, connected to the diagonal of the bridge circuit.

However, this time relay has a low time delay accuracy.

The purpose of the invention is to increase the exposure time and increase its accuracy.

For this bridge, the nodoordium circuit is parallel to the storage capacitor, the output of the zero organ is connected to the control electrode of the thyristor connected in series with the winding of the discharge accumulator capacitor, and the connection point of the resistor and capacitor RC circuit of the bridge circuit is connected to the total thickness of the bridge and Yes, a storage capacitor between the connection point of the storage capacitor with the bridge circuit capacitor and the common power bus is inserted a diode connected in the central polarity for the current number of the storage capacitor.

In the drawing, the implementation principle

The electrical circuit of the proposed time relay, which contains a storage capacitor /, a two-winding electromagnetic relay 2, one winding of which is connected to the charging circuit, and another to the discharge circuit of the storage capacitor /, a bridge circuit consisting of an integrating RC value into which the input t resistor 3 and a capacitor 4, and a resistive divider containing resistors 5 and 6, a zero-body consisting of transistors 7 and S and a resistor 9. The bridge circuit is connected in parallel to the storage capacitor /, the output of the zero-organ (point The emitter of the transistor 8 and the resistor 9) is connected with the control electrode of the thyristor W, connected in series with the winding of the relay 2 in the discharge circuit of the storage capacitor J. The common connection point of the resistor 5 and the capacitor 4 is connected to the common bus bar. A diode 11 in the forward direction for the charging capacitor charge current is included at the rate of charge of the ionic co-capacitor / between the point of connection of the storage capacitor / with the capacitor 4 and the common power supply bus.

The time relay works as follows. When the voltage is applied to terminals 12 and 13 through the switching winding of the relay 2, an impulse of the charge current of the capacitor / is sufficient to turn on the relay 2. The storage capacitor / is charged and while the terminals 12 and 13 have voltage, the circuit does not occur no change as the capacitor 4 is bridged by a jumper. When the terminal is removed from terminals 12 and 13 (start-up of the time relay), the power supply of the circuit becomes storage accumulator 1, and the current cannot be passed through the jumper due to the pick-up of diode 11. Copy detector 4 starts charging through resistor 3. When ianr The capacitor 4 will reach a value equal to the drop of the nanrccap on the resistor, a null organ is punched (the threshold analogue of the two-base diode assembled on transistors 7 and 5 and applied to the control electrode of the thyristor 10, which turns on and serves the voltage of the pin capacitor / on the disconnecting coil of relay 2. Relay 20 2 switches its contacts. When the voltage is subsequently applied to the relay, the impulses of charging current of the capacitor 1 through the starting coil of the relay 2 reset the circuit, 25

charge condenser capacitor. 4 Subject of the invention The time relay contains another capacitor, a two-winding electromagnetic relay, one winding of which is connected to the charging circuit, and the other one to the discharge capacitor of the storage capacitor, the bridge circuit consisting of an integrating RC circuit and a voltage divider, is zero The organ connected to the diagonal of the bridge circuit, characterized in that, in order to increase the time delay and increase its accuracy, the bridge circuit is connected in parallel to the storage capacitor, the output of the null organ by connecting 1 a thyristor electrode connected in series with the winding of the discharge circuit of the storage capacitor, while the common point of the resistor and capacitor of the RC circuit of the bridge circuit is connected to the common power bus and between the connection point of the storage capacitor and the bridge capacitor circuit and common busbar diode introduced in the direct polarity for the current